Merge into main the new state of the operating system/kernel #1

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Nigel wants to merge 120 commits from dev into main
8 changed files with 469 additions and 12 deletions
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95
src/kernel/ide/ide.h Normal file
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#pragma once
#include <stdint.h>
#include "../pci/pciDevice.h"
#include "../tty/kterm.h"
#include "ideCommands.h"
#include "sampleIDE.h"
#define IS_BIT_SET(x, bit) ((x >> bit & 0x1) == 1)
inline void CheckProgIF(uint8_t ProgIF){
if( IS_BIT_SET(ProgIF, 0) ) // Is the 0th bit set
{
printf ("Primary Channel is in PCI native mode\n");
} else{
printf("Primary Channel is in Compatibility mode\n");
}
if( IS_BIT_SET(ProgIF, 1)){
printf("Bit 0 can be modified\n");
}else{
printf("Bit 0 cannot be modified\n");
}
if( IS_BIT_SET(ProgIF, 2)){
printf("Secondary channel is in PCI native mode\n");
}else{
printf("Secondary channel is in Compatibility mode\n");
}
if( IS_BIT_SET(ProgIF, 3)){
printf("Bit 2 can be modified\n");
}else{
printf("Bit 2 cannot be modified\n");
}
if( IS_BIT_SET(ProgIF , 7)){
printf("This is a bus master IDE Controller\n");
} else{
printf("This controller doesn't support DMA!\n");
}
}
inline void TestIDEController(){
// Do stuff
printf("Testing IDE controllers\n");
// NOTE: Testing done with a hard coded known PCI addres
// Of an intel PIIX3 IDE Controller
int bus = 0;
int device =1 , function = 1;
PCIBusAddress IDEControllerPCIAddress = PCIBusAddress{bus,device, function};
uint8_t ProgIF = GetProgIF(IDEControllerPCIAddress);
printf( "ProgIF: 0x%x\n" ,ProgIF);
//CheckProgIF(ProgIF);
// For this test will just assume all bits are set
// the CheckProgIF can check but on the test machine all bits are set anyways
uint32_t BAR0,BAR1,BAR2,BAR3, BAR4;
BAR0 = ReadBAR(IDEControllerPCIAddress, 0);
BAR1 = ReadBAR(IDEControllerPCIAddress, 1);
BAR2 = ReadBAR(IDEControllerPCIAddress, 2);
BAR3 = ReadBAR(IDEControllerPCIAddress, 3);
BAR4 = ReadBAR(IDEControllerPCIAddress, 4);
// All bars are return 0xffffff for some as of yet mysterious reason!
printf( "BAR 0: 0x%x\n", BAR0);
printf( "BAR 1: 0x%x\n", BAR1);
printf( "BAR 2: 0x%x\n", BAR2);
printf( "BAR 3: 0x%x\n", BAR3);
printf( "BAR 4: 0x%x\n", BAR4);
init_IDE(BAR0, BAR1, BAR2, BAR3, BAR4);
// Read Something from disc
unsigned int maxByteCount = 20 ;
void* MDA_buffer = (void*)0xC0000000;
}

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#pragma once
// Commands
#define ATA_CMD_READ_PIO 0x20
#define ATA_CMD_READ_PIO_EXT 0x24
#define ATA_CMD_READ_DMA 0xC8
#define ATA_CMD_READ_DMA_EXT 0x25
#define ATA_CMD_WRITE_PIO 0x30
#define ATA_CMD_WRITE_PIO_EXT 0x34
#define ATA_CMD_WRITE_DMA 0xCA
#define ATA_CMD_WRITE_DMA_EXT 0x35
#define ATA_CMD_CACHE_FLUSH 0xE7
#define ATA_CMD_CACHE_FLUSH_EXT 0xEA
#define ATA_CMD_PACKET 0xA0
#define ATA_CMD_IDENTIFY_PACKET 0xA1
#define ATA_CMD_IDENTIFY 0xEC
#define ATAPI_CMD_READ 0xA8
#define ATAPI_CMD_EJECT 0x1B
#define ATA_IDENT_DEVICETYPE 0
#define ATA_IDENT_CYLINDERS 2
#define ATA_IDENT_HEADS 6
#define ATA_IDENT_SECTORS 12
#define ATA_IDENT_SERIAL 20
#define ATA_IDENT_MODEL 54
#define ATA_IDENT_CAPABILITIES 98
#define ATA_IDENT_FIELDVALID 106
#define ATA_IDENT_MAX_LBA 120
#define ATA_IDENT_COMMANDSETS 164
#define ATA_IDENT_MAX_LBA_EXT 200
#define IDE_ATA 0x00
#define IDE_ATAPI 0x01
#define ATA_MASTER 0x00
#define ATA_SLAVE 0x01
#define ATA_REG_DATA 0x00
#define ATA_REG_ERROR 0x01
#define ATA_REG_FEATURES 0x01
#define ATA_REG_SECCOUNT0 0x02
#define ATA_REG_LBA0 0x03
#define ATA_REG_LBA1 0x04
#define ATA_REG_LBA2 0x05
#define ATA_REG_HDDEVSEL 0x06
#define ATA_REG_COMMAND 0x07
#define ATA_REG_STATUS 0x07
#define ATA_REG_SECCOUNT1 0x08
#define ATA_REG_LBA3 0x09
#define ATA_REG_LBA4 0x0A
#define ATA_REG_LBA5 0x0B
#define ATA_REG_CONTROL 0x0C
#define ATA_REG_ALTSTATUS 0x0C
#define ATA_REG_DEVADDRESS 0x0D
// Channels:
#define ATA_PRIMARY 0x00
#define ATA_SECONDARY 0x01
// Directions:
#define ATA_READ 0x00
#define ATA_WRITE 0x01
// Status
#define ATA_SR_BSY 0x80 // Busy
#define ATA_SR_DRDY 0x40 // Drive ready
#define ATA_SR_DF 0x20 // Drive write fault
#define ATA_SR_DSC 0x10 // Drive seek complete
#define ATA_SR_DRQ 0x08 // Data request ready
#define ATA_SR_CORR 0x04 // Corrected data
#define ATA_SR_IDX 0x02 // Index
#define ATA_SR_ERR 0x01 // Error
// Errors
#define ATA_ER_BBK 0x80 // Bad block
#define ATA_ER_UNC 0x40 // Uncorrectable data
#define ATA_ER_MC 0x20 // Media changed
#define ATA_ER_IDNF 0x10 // ID mark not found
#define ATA_ER_MCR 0x08 // Media change request
#define ATA_ER_ABRT 0x04 // Command aborted
#define ATA_ER_TK0NF 0x02 // Track 0 not found
#define ATA_ER_AMNF 0x01 // No address mark

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@ -0,0 +1,25 @@
#pragma once
struct IDEChannelRegisters{
unsigned short base; // I/O Base.
unsigned short ctrl; // Control Base
unsigned short bmide; // Bus Master IDE
unsigned char nIEN; // IEN (no interrupt)
}channels[2];
extern unsigned char ide_buf[2048];
extern unsigned char ide_irq_invoked;
extern unsigned char atapi_packet[12];
struct IDE_DEVICE {
unsigned char Reserved; // 0 (Empty) or 1 (This device exists).
unsigned char Channel; // 0 (Primary Channel) or 1 (Secondary Channel).
unsigned char Drive; // 0 (Master Drive) or 1 (Slave Drive).
unsigned short Type; // 0 ATA, 1:ATAPI
unsigned short Signature; // Drive Signature
unsigned short Capabilities; // Features.
unsigned int CommandSets; // Command Sets Supported.
unsigned int Size; // Size in Sectors
unsigned char Model[41]; // Model in string.
} ide_devices[4];

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src/kernel/ide/sampleIDE.h Normal file
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#pragma once
#include <stdint.h>
#include "../tty/kterm.h"
#include "sampleIDE.definitions.h"
#include "ideCommands.h"
void Detect_IO_Ports(uint32_t BAR0, uint32_t BAR1,uint32_t BAR2, uint32_t BAR3, uint32_t BAR4);
void DetectDevices();
unsigned char ide_buf[2048] = {0};
unsigned char ide_irq_invoked = 0;
unsigned char atapi_packet[12] = {0xA8,0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
void wait(int t){
volatile int i,j;
for(i=0;i<t;i++)
for(j=0;j<25000;j++)
asm("NOP");
}
void ide_write(unsigned char channel, unsigned char reg, unsigned char data){
if (reg > 0x07 && reg < 0x0C)
ide_write(channel, ATA_REG_CONTROL, 0x80 | channels[channel].nIEN);
if (reg < 0x08)
outb(channels[channel].base + reg - 0x00, data);
else if (reg < 0x0C)
outb(channels[channel].base + reg - 0x06, data);
else if (reg < 0x0E)
outb(channels[channel].ctrl + reg - 0x0A, data);
else if (reg < 0x16)
outb(channels[channel].bmide + reg - 0x0E, data);
if (reg > 0x07 && reg < 0x0C)
ide_write(channel, ATA_REG_CONTROL, channels[channel].nIEN);
}
unsigned char ide_read(unsigned char channel, unsigned char reg){
unsigned char result;
if( reg > 0x07 && reg < 0x0C)
ide_write(channel,ATA_REG_CONTROL, 0x80 | channels[channel].nIEN);
if( reg < 0x08)
result = inb(channels[channel].base + reg - 0x00);
else if (reg < 0x0C)
result = inb(channels[channel].base + reg - 0x06);
else if (reg < 0x0E)
result = inb(channels[channel].ctrl + reg - 0x0A);
else if (reg < 0x16)
result = inb(channels[channel].bmide + reg - 0x0E);
if (reg > 0x07 && reg < 0x0C)
ide_write(channel, ATA_REG_CONTROL, channels[channel].nIEN);
return result;
}
void ide_read_buffer(unsigned char channel, unsigned char reg, unsigned int buffer, unsigned int quads){
if (reg > 0x07 && reg < 0x0C)
ide_write(channel, ATA_REG_CONTROL, 0x80 | channels[channel].nIEN);
if (reg < 0x08)
insl(channels[channel].base + reg - 0x00, (void *)buffer, quads);
else if (reg < 0x0C)
insl(channels[channel].base + reg - 0x06, (void *)buffer, quads);
else if (reg < 0x0E)
insl(channels[channel].ctrl + reg - 0x0A, (void *)buffer, quads);
else if (reg < 0x16)
insl(channels[channel].bmide + reg - 0x0E, (void *)buffer, quads);
if (reg > 0x07 && reg < 0x0C)
ide_write(channel, ATA_REG_CONTROL, channels[channel].nIEN);
}
unsigned char ide_polling(unsigned char channel, unsigned int advanced_check) {
// (I) Delay 400 nanosecond for BSY to be set:
// -------------------------------------------------
for(int i = 0; i < 4; i++)
ide_read(channel, ATA_REG_ALTSTATUS); // Reading the Alternate Status port wastes 100ns; loop four times.
// (II) Wait for BSY to be cleared:
// -------------------------------------------------
while (ide_read(channel, ATA_REG_STATUS) & ATA_SR_BSY)
; // Wait for BSY to be zero.
if (advanced_check) {
unsigned char state = ide_read(channel, ATA_REG_STATUS); // Read Status Register.
// (III) Check For Errors:
// -------------------------------------------------
if (state & ATA_SR_ERR)
return 2; // Error.
// (IV) Check If Device fault:
// -------------------------------------------------
if (state & ATA_SR_DF)
return 1; // Device Fault.
// (V) Check DRQ:
// -------------------------------------------------
// BSY = 0; DF = 0; ERR = 0 so we should check for DRQ now.
if ((state & ATA_SR_DRQ) == 0)
return 3; // DRQ should be set
}
return 0; // No Error.
}
unsigned char ide_print_error(unsigned int drive, unsigned char err) {
if (err == 0)
return err;
printf("IDE:");
if (err == 1) {printf("- Device Fault\n "); err = 19;}
else if (err == 2) {
unsigned char st = ide_read(ide_devices[drive].Channel, ATA_REG_ERROR);
if (st & ATA_ER_AMNF) {printf("- No Address Mark Found\n "); err = 7;}
if (st & ATA_ER_TK0NF) {printf("- No Media or Media Error\n "); err = 3;}
if (st & ATA_ER_ABRT) {printf("- Command Aborted\n "); err = 20;}
if (st & ATA_ER_MCR) {printf("- No Media or Media Error\n "); err = 3;}
if (st & ATA_ER_IDNF) {printf("- ID mark not Found\n "); err = 21;}
if (st & ATA_ER_MC) {printf("- No Media or Media Error\n "); err = 3;}
if (st & ATA_ER_UNC) {printf("- Uncorrectable Data Error\n "); err = 22;}
if (st & ATA_ER_BBK) {printf("- Bad Sectors\n "); err = 13;}
} else if (err == 3) {printf("- Reads Nothing\n "); err = 23;}
else if (err == 4) {printf("- Write Protected\n "); err = 8;}
printf("- [%s %s] %s\n",
(const char *[]){"Primary", "Secondary"}[ide_devices[drive].Channel], // Use the channel as an index into the array
(const char *[]){"Master", "Slave"}[ide_devices[drive].Drive], // Same as above, using the drive
ide_devices[drive].Model);
return err;
}
inline void init_IDE( uint32_t BAR0, uint32_t BAR1,uint32_t BAR2, uint32_t BAR3, uint32_t BAR4)
{
Detect_IO_Ports( BAR0, BAR1, BAR2, BAR3, BAR4);
printf("ATA Primary port, base: 0x%x, ctrl: 0x%x\n", channels[ATA_PRIMARY].base , channels[ATA_PRIMARY].ctrl);
printf("ATA Secondary port, base: 0x%x, ctrl: 0x%x\n", channels[ATA_SECONDARY].base , channels[ATA_SECONDARY].ctrl);
// 2- Disable IRQs:
ide_write(ATA_PRIMARY , ATA_REG_CONTROL, 2);
ide_write(ATA_SECONDARY, ATA_REG_CONTROL, 2);
DetectDevices();
// 4- Print Summary:
for (int i = 0; i < 4; i++)
if (ide_devices[i].Reserved == 1) {
printf(" Found %s Drive %d bytes - %x\n",
(const char *[]){"ATA", "ATAPI"}[ide_devices[i].Type], /* Type */
ide_devices[i].Size / 2, /* Size */
ide_devices[i].Model);
}
}
// 3- Detect ATA-ATAPI Devices:
void DetectDevices(){
int i, j, k, count = 0;
for (i = 0; i < 2; i++)
for (j = 0; j < 2; j++) {
unsigned char err = 0, type = IDE_ATA, status;
ide_devices[count].Reserved = 0; // Assuming that no drive here.
// (I) Select Drive:
ide_write(i, ATA_REG_HDDEVSEL, 0xA0 | (j << 4)); // Select Drive.
wait(1000); // Wait 1ms for drive select to work.
// (II) Send ATA Identify Command:
ide_write(i, ATA_REG_COMMAND, ATA_CMD_IDENTIFY);
wait(1000);
// (III) Polling:
if (ide_read(i, ATA_REG_STATUS) == 0) continue; // If Status = 0, No Device.
while(1) {
status = ide_read(i, ATA_REG_STATUS);
if ((status & ATA_SR_ERR)) {err = 1; break;} // If Err, Device is not ATA.
if (!(status & ATA_SR_BSY) && (status & ATA_SR_DRQ)) break; // Everything is right.
}
// (IV) Probe for ATAPI Devices:
if (err != 0) {
unsigned char cl = ide_read(i, ATA_REG_LBA1);
unsigned char ch = ide_read(i, ATA_REG_LBA2);
if (cl == 0x14 && ch ==0xEB)
type = IDE_ATAPI;
else if (cl == 0x69 && ch == 0x96)
type = IDE_ATAPI;
else
continue; // Unknown Type (may not be a device).
ide_write(i, ATA_REG_COMMAND, ATA_CMD_IDENTIFY_PACKET);
wait(1000);
}
// (V) Read Identification Space of the Device:
ide_read_buffer(i, ATA_REG_DATA, (unsigned int) ide_buf, 128);
// (VI) Read Device Parameters:
ide_devices[count].Reserved = 1;
ide_devices[count].Type = type;
ide_devices[count].Channel = i;
ide_devices[count].Drive = j;
ide_devices[count].Signature = *((unsigned short *)(ide_buf + ATA_IDENT_DEVICETYPE));
ide_devices[count].Capabilities = *((unsigned short *)(ide_buf + ATA_IDENT_CAPABILITIES));
ide_devices[count].CommandSets = *((unsigned int *)(ide_buf + ATA_IDENT_COMMANDSETS));
// (VII) Get Size:
if (ide_devices[count].CommandSets & (1 << 26))
// Device uses 48-Bit Addressing:
ide_devices[count].Size = *((unsigned int *)(ide_buf + ATA_IDENT_MAX_LBA_EXT));
else
// Device uses CHS or 28-bit Addressing:
ide_devices[count].Size = *((unsigned int *)(ide_buf + ATA_IDENT_MAX_LBA));
// (VIII) String indicates model of device (like Western Digital HDD and SONY DVD-RW...):
for(k = 0; k < 40; k += 2) {
ide_devices[count].Model[k] = ide_buf[ATA_IDENT_MODEL + k + 1];
ide_devices[count].Model[k + 1] = ide_buf[ATA_IDENT_MODEL + k];}
ide_devices[count].Model[40] = 0; // Terminate String.
count++;
}
}
void Detect_IO_Ports(uint32_t BAR0, uint32_t BAR1,uint32_t BAR2, uint32_t BAR3, uint32_t BAR4){
// 1 Detect I/O Ports which interface an IDE Controller
// Based on the implementation within serenity
channels[ATA_PRIMARY].base = (BAR0 == 0x1 || BAR0 == 0x0) ? 0x1F0 : BAR0 & (~1);
channels[ATA_PRIMARY ].ctrl = (BAR1 == 0x1 || BAR1 == 0x0) ? 0x3F6 : BAR1 & (~1);
channels[ATA_SECONDARY].base = (BAR2 == 0x1 || BAR2 == 0x0) ? 0x170 : BAR2 & (~1);
channels[ATA_SECONDARY].ctrl = (BAR3 == 0x1 || BAR3 == 0x0) ? 0x376 : BAR3 & (~1);
channels[ATA_PRIMARY ].bmide = (BAR4 & (~1)) + 0; // Bus Master IDE
channels[ATA_SECONDARY].bmide = (BAR4 & (~1)) + 8; // Bus Master IDE
}

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@ -65,7 +65,11 @@ extern "C" void kernel_main (void);
// Enumerate the PCI bus
PCI_Enumerate();
PCI_Enumerate();
TestIDEController();
while (true){

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@ -2,6 +2,8 @@
extern "C"{
#include "../libc/include/string.h"
}
#include "vga/VBE.h"
#include "tty/kterm.h"
@ -17,7 +19,7 @@ extern "C"{
#include "cpu.h"
#include "serial.h"
#include "pci.h"
#include "ide/ide.h"
#define CHECK_FLAG(flags, bit) ((flags) & (1 <<(bit)))

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@ -121,8 +121,6 @@ const char* getVendor( uint32_t VendorID){
}
uint32_t ConfigReadWord ( PCIBusAddress& PCIDeviceAddress , uint8_t offset){
outl(CONFIG_ADDRESS , PCIDeviceAddress.getAddress() | offset );
return inl(CONFIG_DATA);
@ -144,8 +142,6 @@ uint32_t ConfigReadWord (uint8_t bus, uint8_t device, uint8_t func, uint8_t offs
return inl(CONFIG_DATA);
}
uint8_t GetHeaderType( PCIBusAddress& PCIDeviceAddress ){
uint32_t header_information = ConfigReadWord(PCIDeviceAddress , 0xC);
return (uint8_t) (
@ -167,9 +163,6 @@ bool IsMultiFunctionDevice(PCIBusAddress& PCIDeviceAddress){
>> 7 );
}
void PrintPCIDeviceInfo (PCIBusAddress& PCIDeviceAddress)
{
uint32_t DeviceID = (GetDevice(PCIDeviceAddress.bus, PCIDeviceAddress.device, PCIDeviceAddress.function) >> 16);
@ -191,8 +184,6 @@ void PrintPCIDeviceInfo (PCIBusAddress& PCIDeviceAddress)
}
void PCI_Enumerate(){
int devicesFound = 0;
// loop through all possible busses, devices and their functions;
@ -244,3 +235,13 @@ void PCI_Enumerate(){
printf("Found %d PCI devices!\n", devicesFound);
}
uint8_t GetProgIF (PCIBusAddress& PCIDeviceAddress){
uint32_t data = ConfigReadWord(PCIDeviceAddress, 0x8);
return ((data >> 8) & 0xFF);
}
uint32_t ReadBAR ( PCIBusAddress& PCIDeviceAddress, int bar_number){
int offsetToBar = 0x10 + (bar_number* 0x4);
return ConfigReadWord(PCIDeviceAddress, offsetToBar);
}

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@ -32,4 +32,7 @@ uint16_t GetClassCodes( PCIBusAddress& PICDeviceAddress );
const char* getVendor( uint64_t VendorID);
const char* GetClassCodeName (uint64_t ClassCode );
void PCI_Enumerate();
uint8_t GetProgIF (PCIBusAddress& PCIDeviceAddress);
void PCI_Enumerate();
uint32_t ReadBAR ( PCIBusAddress& PCIDeviceAddress, int bar_number);